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Initiation of Mechanical Ventilation

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Presentation on theme: "Initiation of Mechanical Ventilation"— Presentation transcript:

1 Initiation of Mechanical Ventilation
Initial Ventilator Settings Mode Full Ventilatory Support (FVS) Assumes essentially all the work of breathing Majority initially require FVS Assist Control (A/C) SIMV if rate is 12 BPM or higher (Chang) Partial Ventilatory Support (PVS) Provides less than total amount of work of breathing Common during weaning SIMV at lower rates (usually <8 -10 BPM) PSV Bi-PAP

2 Initiation of Mechanical Ventilation
Initial Ventilator Settings Respiratory Rate A range of 8 – 12 breaths per minute (BPM) Normal respiratory rate is BPM Respiratory rate is chosen in conjunction with tidal volume to provide an acceptable minute ventilation Normal VE is 5-10 L/min Estimated by using 100 mL/kg IBW ABG needed to assess effectiveness of initial settings PaCO2 >45 PaCO2 <35  minute ventilation via rate or VT  minute ventilation via rate or VT

3 Initiation of Mechanical Ventilation
Initial Ventilator Settings Tidal Volume A range of 6 – 12 ml/kg IBW is used for adults 10 – 12 ml/kg IBW (normal lung function) 8 – 10 ml/kg IBW (obstructive lung disease) 6 – 8 ml/kg IBW (ARDS) A range of 5 – 10 ml/kg IBW is used for infants and children (Pilbeam) Ideal Body Weight Calculation Male IBW in lb: [6 x (height in inches – 60)] Female IBW in lb: [5 x (height in inches – 60)] NOTE: spontaneous VT for an adult is 5 – 7 ml/kg of IBW

4 Initiation of Mechanical Ventilation
Initial Ventilator Settings Tidal Volume Ideally, a tidal volume should be chosen that maintains a PPlat <30 cm H2O

5 Initiation of Mechanical Ventilation
Initial Ventilator Settings FiO2 Initially 100% Severe hypoxemia Abnormal cardiopulmonary functions Post-resuscitation Smoke inhalation ARDS After stabilization, attempt to keep FiO2 <50% Avoids oxygen-induced lung injuries Absorption atelectasis Oxygen toxicity

6 Initiation of Mechanical Ventilation
Initial Ventilator Settings FiO2 Patients with mild hypoxemia or normal cardiopulmonary function Drug overdose Uncomplicated postoperative recovery FiO2 of 40% Same FiO2 prior to mechanical ventilation

7 Initiation of Mechanical Ventilation
Initial Ventilator Settings Positive End Expiratory Pressure (PEEP) Increases FRC Useful to treat refractory hypoxemia Initially set at 5 cm H2O Subsequent changes are based on ABG results Contraindications Hypotension Elevated ICP Uncontrolled pneumothorax

8 Initiation of Mechanical Ventilation
Initial Ventilator Settings I:E Ratio Relationship between inspiratory and expiratory time Usually 1:1.5 – 1:4 (TI of 0.8 – 1.2 seconds) Principle Determinants of TI and I:E Ratio Peak flow ( I) Inspiratory time (TI) Inspiratory time percentage (TI%) Respiratory rate (f ) Minute ventilation - E (VT x f )

9 Initiation of Mechanical Ventilation
Initial Ventilator Settings Adjusting I:E Ratio I :  I  TI  smaller I:E ratio I :  I  TI  larger I:E ratio VT: VT  TI  larger I:E ratio VT: VT  TI  smaller I:E ratio f : RR  TE  larger I:E ratio f : RR  TE  smaller I:E ratio TI%: TI%  larger I:E ratio e.g., = TI% of 20% = 1:4, TI% 0f 25% 1:3

10 Initiation of Mechanical Ventilation
Initial Ventilator Settings Flow Pattern Initially, a decelerating flow pattern is used; others result in higher airway pressure

11 Initiation of Mechanical Ventilation
Initial Ventilator Settings Flow Pattern Some clinician choose to use a constant (square) flow pattern initially because it enables the clinician to obtain baseline measurements of lung compliance and airway resistance (Oakes’ Ventilation Management; ch.5)

12 Initiation of Mechanical Ventilation
Initial Ventilator Settings Flow Rate Set at 40 – 100 L/min (volume ventilation) Set I ≥ patient’s peak inspiratory demand and to deliver an I:E ratio of 1:1.5 – 1:4

13 Initiation of Mechanical Ventilation
Ventilator Alarm Settings High Minute Ventilation Set at 1-2 L/min or 10%-15% above baseline minute ventilation Patient is becoming tachypneic (respiratory distress) Ventilator is self-triggering High Respiratory Rate Alarm Set 10 – 15 BPM over observed respiratory rate Ventilator self-triggering

14 Initiation of Mechanical Ventilation
Ventilator Alarm Settings Low Exhaled Tidal Volume Alarm Set 100 ml or 10%-15% lower than expired mechanical tidal volume Causes System leak Circuit disconnection ET Tube cuff leak Low Exhaled Minute Ventilation Alarm Set at 1-2 L/min or 10%-15% below minimum SIMV or A/C backup minute ventilation

15 Initiation of Mechanical Ventilation
Ventilator Alarm Settings High Inspiratory Pressure Alarm Set 10 – 15 cm H2O above PIP Inspiration is terminated when triggered Common causes: Water in circuit Kinking or biting of ET Tube Secretions in the airway Bronchospasm Tension pneumothorax Decrease in lung compliance Increase in airway resistance Coughing

16 Initiation of Mechanical Ventilation
Ventilator Alarm Settings Low Inspiratory Pressure Alarm Set 10 – 15 cm H2O below observed PIP Causes System leak Circuit disconnection ET Tube cuff leak High/Low PEEP/CPAP Alarm (baseline alarm) High: Set 3-5 cm H2O above PEEP Circuit or exhalation manifold obstruction Auto – PEEP Low: Set 3-5 cm H2O below PEEP Circuit disconnect

17 Initiation of Mechanical Ventilation
Ventilator Alarm Settings Apnea Alarm Set with a 15 – 20 second time delay In some ventilators, this triggers an apnea ventilation mode High/Low FiO2 Alarm High: 5% - 10% over the analyzed FiO2 Low: 5% - 10% below the analyzed FiO2 High/Low Temperature Alarm Heated humidification High: No higher than 37 C Low: No lower than 30 C


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